<%@page import="ChartDirector.*, java.util.*" %>
<%
//
// This example demonstrates creating a histogram with a bell curve from raw data. About half of the
// code is to sort the raw data into slots and to generate the points on the bell curve. The
// remaining half of the code is the actual charting code.
//

// Generate a random guassian distributed data series as the input data for this example.
RanSeries r = new RanSeries(66);
double[] samples = r.getGaussianSeries(200, 100, 10);

//
// Classify the numbers into slots. In this example, the slot width is 5 units.
//
double slotSize = 5;

// Compute the min and max values, and extend them to the slot boundary.
ArrayMath m = new ArrayMath(samples);
double minX = (int)(m.min() / slotSize) * slotSize;
double maxX = (int)(m.max() / slotSize) * slotSize + slotSize;

// We can now determine the number of slots
int slotCount = (int)((maxX - minX) / slotSize + 0.5);
double[] frequency = new double[slotCount];

// Count the data points contained in each slot
for(int i = 0; i < samples.length; ++i) {
    int slotIndex = (int)((samples[i] - minX) / slotSize);
    frequency[slotIndex] = frequency[slotIndex] + 1;
}

//
// Compute Normal Distribution Curve
//

// The mean and standard deviation of the data
double mean = m.avg();
double stdDev = m.stdDev();

// The normal distribution curve (bell curve) is a standard statistics curve. We need to vertically
// scale it to make it proportion to the frequency count.
double scaleFactor = slotSize * samples.length / stdDev / Math.sqrt(2 * 3.1416);

// In this example, we plot the bell curve up to 3 standard deviations.
double stdDevWidth = 3.0;

// We generate 4 points per standard deviation to be joined with a spline curve.
int bellCurveResolution = (int)(stdDevWidth * 4 + 1);
double[] bellCurve = new double[bellCurveResolution];
for(int i = 0; i < bellCurveResolution; ++i) {
    double z = 2 * i * stdDevWidth / (bellCurveResolution - 1) - stdDevWidth;
    bellCurve[i] = Math.exp(-z * z / 2) * scaleFactor;
}

//
// At this stage, we have obtained all data and can plot the chart.
//

// Create a XYChart object of size 600 x 360 pixels
XYChart c = new XYChart(600, 360);

// Set the plotarea at (50, 30) and of size 500 x 300 pixels, with transparent background and border
// and light grey (0xcccccc) horizontal grid lines
c.setPlotArea(50, 30, 500, 300, Chart.Transparent, -1, Chart.Transparent, 0xcccccc);

// Display the mean and standard deviation on the chart

c.addTitle("Mean = " + c.formatValue(mean, "{value|1}") + ", Standard Deviation = " + c.formatValue(
    stdDev, "{value|2}"), "Arial");


// Set the x and y axis label font to 12pt Arial
c.xAxis().setLabelStyle("Arial", 12);
c.yAxis().setLabelStyle("Arial", 12);

// Set the x and y axis stems to transparent, and the x-axis tick color to grey (0x888888)
c.xAxis().setColors(Chart.Transparent, Chart.TextColor, Chart.TextColor, 0x888888);
c.yAxis().setColors(Chart.Transparent);

// Draw the bell curve as a spline layer in red (0xdd0000) with 2-pixel line width
SplineLayer bellLayer = c.addSplineLayer(bellCurve, 0xdd0000);
bellLayer.setXData2(mean - stdDevWidth * stdDev, mean + stdDevWidth * stdDev);
bellLayer.setLineWidth(2);
// No tooltip is needed for the spline layer
bellLayer.setHTMLImageMap("{disable}");

// Draw the histogram as bars in blue (0x6699bb) with dark blue (0x336688) border
BarLayer histogramLayer = c.addBarLayer(frequency, 0x6699bb);
histogramLayer.setBorderColor(0x336688);
// The center of the bars span from minX + half_bar_width to maxX - half_bar_width
histogramLayer.setXData2(minX + slotSize / 2.0, maxX - slotSize / 2.0);
// Configure the bars to touch each other with no gap in between
histogramLayer.setBarGap(Chart.TouchBar);
// Use rounded corners for decoration
histogramLayer.setRoundedCorners();
// Tool tip for the histogram
histogramLayer.setHTMLImageMap("", "", "title='{value}'");

// ChartDirector by default will extend the x-axis scale by 0.5 unit to cater for the bar width. It
// is because a bar plotted at x actually occupies (x +/- half_bar_width), and the bar width is
// normally 1 for label based x-axis. However, this chart is using a linear x-axis instead of label
// based. So we disable the automatic extension and add a dummy layer to extend the x-axis scale to
// cover minX to maxX.
c.xAxis().setIndent(false);
c.addLineLayer2().setXData(minX, maxX);

// For the automatic y-axis labels, set the minimum spacing to 40 pixels.
c.yAxis().setTickDensity(40);

// Output the chart
WebChartViewer viewer = new WebChartViewer(request, "chart1");
viewer.setChart(c, Chart.SVG);

// Include tool tip for the chart
viewer.setImageMap(c.getHTMLImageMap(""));
%>
<!DOCTYPE html>
<html>
<head>
    <title>Histogram with Bell Curve</title>
    <!-- Include ChartDirector Javascript Library to support chart interactions -->
    <script type="text/javascript" src="cdjcv.js"></script>
</head>
<body style="margin:5px 0px 0px 5px">
    <div style="font:bold 18pt verdana;">
        Histogram with Bell Curve
    </div>
    <hr style="border:solid 1px #000080; background:#000080" />
    <div style="font:10pt verdana; margin-bottom:1.5em">
        <a href="viewsource.jsp?file=<%=request.getServletPath()%>">View Source Code</a>
    </div>
    <!-- ****** Here is the chart image ****** -->
    <%= viewer.renderHTML(response) %>
</body>
</html>
